What power supply are you guys using for the SGC ? I have here 2x18VAC that I would like to use - would this still be possible, even if I would not get a very high voltage out of it - i'm listening in rather small rooms and max 3m away from the speakers so max power is not the highest priority as long as the amp dehaves at the lower rail voltage ( should come out around 25V if I'm not mistaken ).
Regards, Stefan
Regards, Stefan
Afaik, that should be OK, with the limitations you mention yourself. I've seen recommendations specifically for 18V if using 4R speakers.
Did you see this section of post #1?
Eyeballing Figure 8, I think it predicts something like (25W into 8 ohms), (32W into 6 ohms), (44W into 4 ohms) when the transformer secondary is 18VAC rms at full load.
Eyeballing Figure 8, I think it predicts something like (25W into 8 ohms), (32W into 6 ohms), (44W into 4 ohms) when the transformer secondary is 18VAC rms at full load.
Actually, that page was always pretty bare. As far as I can see, Bob has two relevant measurements in his book (I only have an used copy of an old edition though).
One is a thd vs frequency at 40W/8r. A bit more than 0.001% at 1khz slowly raising to 0.01% at 20khz. This is in line with a simple lm3886 best measured performances but it is obviously dependent on implementation and should be assessed for a particular pcb.
The other is a comparison of the klever klipper on/off, showing distortion vs power. Without the soft clipping, thd starts quickly to raise past 50W. With the soft clipping, it starts to raise at about 25W going to 1% at about 50W. This should be less sensitive to implementation.
One is a thd vs frequency at 40W/8r. A bit more than 0.001% at 1khz slowly raising to 0.01% at 20khz. This is in line with a simple lm3886 best measured performances but it is obviously dependent on implementation and should be assessed for a particular pcb.
The other is a comparison of the klever klipper on/off, showing distortion vs power. Without the soft clipping, thd starts quickly to raise past 50W. With the soft clipping, it starts to raise at about 25W going to 1% at about 50W. This should be less sensitive to implementation.
I mean for the completed amp. The layout's pretty important too, not just the circuit. Unless your PCB is an exact duplicate of what Bob used?
So I am getting myself a little bit prepared for the boards.
I have this big honking 23v toroid. It has 6 outputs at 5A.
I am going to try these psus as i was included in the group buy, and now i have a use for them! ( I have the CRC psu boards, not just the rectifier boards.)
LT4320 based active rectifier
using 2 windings per psu pcb and one psu per channel, so kind of a dual mono?
Should give me a good start I hope!
The power amp will be fed from my Salas DCG3 preamp that I think I set to 2x gain. Currently using a tpa3255 class d power amp with 20db gain.
I have this big honking 23v toroid. It has 6 outputs at 5A.
I am going to try these psus as i was included in the group buy, and now i have a use for them! ( I have the CRC psu boards, not just the rectifier boards.)
LT4320 based active rectifier
using 2 windings per psu pcb and one psu per channel, so kind of a dual mono?
Should give me a good start I hope!
The power amp will be fed from my Salas DCG3 preamp that I think I set to 2x gain. Currently using a tpa3255 class d power amp with 20db gain.
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You're about 5% too high; try it using pencil and paper instead of a calculator. The arithmetic is easy, and pencil+paper eliminates "fat finger" data entry errors.
If you're deriving from first principles, keep in mind that SGC is a cascade of two inverting amplifiers. Don't used memorized expressions that apply to non-inverting topologies.
I just used the R values from the schematic and admittedly used a calculator, although I think I hit the right keys.
What I dont understand is if R6 is part of the equation for gain, and yet R6 can be omitted if not using the klipper?
I am by the way very new to electronics!
Your last paragraph meant nothing to me.!
What I dont understand is if R6 is part of the equation for gain, and yet R6 can be omitted if not using the klipper?
I am by the way very new to electronics!
Your last paragraph meant nothing to me.!
In practical terms, having an overall gain of 22 (omitting R6) or 19.8 (having R6) is of no consequence...